Less than 0.25mm (some variants listed up to 0.3mm).
Flexible Thin Film Pressure Sensor. ZD10-100. Project. Size parameter. Product size. Thickness. Range. Response point. Durability. SENSOR+TEST
Extremely lightweight structure weighing roughly 3 grams zd10-100 datasheet
: Out-of-bed monitoring for patients and healthcare sensors.
Often used for robot whiskers, obstacle-avoidance bumpers, or tactile feedback on robotic grippers. Less than 0
The sensor's thin profile and flexibility allow it to be integrated into several smart technology fields:
The designed to convert external mechanical force into a highly readable, variable electrical resistance output. Engineered utilizing advanced piezoresistive nanotechnology embedded within a flexible polyester base substrate, this high-precision component serves as a versatile force-sensitive resistor (FSR). It bridges the gap between mechanical force interactions and electronic embedded systems. Operating across a tactile detection threshold of 0 to 500 grams , the ultra-thin form factor of the ZD10-100 makes it optimal for spatial-constrained consumer electronics, smart home automation, internet of things (IoT) arrays, and non-invasive medical monitoring products. Mechanical Specifications and Form Factor Project
The ZD10-100 datasheet describes a . It is not cutting-edge in terms of power density or efficiency, but it is a cost-effective solution for general-purpose industrial applications.
To read the ZD10-100 data using a microcontroller (like an Arduino or ESP32), the most effective method is a Voltage Divider circuit The Circuit Setup Connect one pin of the sensor to (e.g., 5V). Connect the other pin to an Analog Input Pull-down Resistor (typically The Formula The output voltage ( cap V sub o u t end-sub ) is calculated as:
. As physical pressure or bending deformation occurs, these embedded nanometer matrix paths compress closer together. This increased physical contact drops the sensor's overall resistance. Mathematical Modeling